ABSTRACT In a previous humorous note, I outlined 12 ways in which performance figures for scientific supercomputers can be distorted. In this paper, the problem of potentially misleading performance reporting is discussed in detail. Included are some examples that have appeared in recent published scientific papers. This paper also includes some proposed guidelines for reporting performance, the adoption of which would raise the level of professionalism and reduce the level of confusion in the field of supercomputing
In this article we review the evolution of supercomputers from vector supercomputers to massively pa...
AbstractSupercomputing or High Performance Computing plays ever more important roles in industrial f...
Fast file systems are critical for high-performance scientific computing, since many scientific appl...
In a previous humorous note, I outlined 12 ways in which performance figures for scientific supercom...
In a previous humorous note entitled 'Twelve Ways to Fool the Masses,' I outlined twelve common ways...
Measuring and reporting performance of parallel computers con-stitutes the basis for scientific adva...
Using an extremely large number of processing elements in computing systems leads to unexpected phen...
Parallel computer systems are among the most complex of man's creations, making satisfactory perform...
Getting good speedup—let alone high parallel efficiency—for parallel-in-time (PinT) integration exam...
Despite supercomputers deliver huge computational power, applications only reach a fraction of it. ...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scie...
For decades now, the notion of “performance” has been synonymous with “speed ” (as measured in FLOPS...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scien...
An index to compare supercomputers is proposed in the study. This index is based on the concept of t...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
In this article we review the evolution of supercomputers from vector supercomputers to massively pa...
AbstractSupercomputing or High Performance Computing plays ever more important roles in industrial f...
Fast file systems are critical for high-performance scientific computing, since many scientific appl...
In a previous humorous note, I outlined 12 ways in which performance figures for scientific supercom...
In a previous humorous note entitled 'Twelve Ways to Fool the Masses,' I outlined twelve common ways...
Measuring and reporting performance of parallel computers con-stitutes the basis for scientific adva...
Using an extremely large number of processing elements in computing systems leads to unexpected phen...
Parallel computer systems are among the most complex of man's creations, making satisfactory perform...
Getting good speedup—let alone high parallel efficiency—for parallel-in-time (PinT) integration exam...
Despite supercomputers deliver huge computational power, applications only reach a fraction of it. ...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scie...
For decades now, the notion of “performance” has been synonymous with “speed ” (as measured in FLOPS...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scien...
An index to compare supercomputers is proposed in the study. This index is based on the concept of t...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
In this article we review the evolution of supercomputers from vector supercomputers to massively pa...
AbstractSupercomputing or High Performance Computing plays ever more important roles in industrial f...
Fast file systems are critical for high-performance scientific computing, since many scientific appl...